![]() Li ZH, Wang M, Yang B, Xu YB (2007a) Preparation of parallel arrayed carbon nanotube film and its structure research. Kuzmany H, Kukovecz A, Simon F, Holzweber M, Kramberger Ch, Pichler T (2004) Functionalization of carbon nanotubes. Kreupl F, Graham AP, Duesberg GS, Steinhögl W, Liebau M, Unger E, Hönlein W (2002) Carbon nanotubes in interconnect applications. Kreupl F (2008) Carbon nanotubes in microelectronic applications, carbon nanotube devices: properties modeling integration and applications. Kis A, Zettl A (2008) Nanomechanics of carbon nanotubes. Khan MI, Dong H, Shabbir F, Shoukat R (2018b) Embedded passive components in advanced 3D chips and micro/nano electronic systems. Khan MI, Shoukat R, Mukherjee K, Dong H (2018a) Analysis of harmonic contents of switching waveforms emitted by the ultra-high speed digital CMOS integrated circuits for use in future micro/nano systems applications. Khan MI, Qamar A, Shabbir F, Shoukat R (2017) Design, development and implementation of Low power and high speed A/D converter in submicron CMOS technology. Khan MI, Shoukat R, Mukherjee K, Dong H (2017) A review on pH sensitive materials for sensors and detection methods. In: 12th IEEE international conference on solid-state and integrated circuit technology (ICSICT), Guilin Khan MI, Buzdar AR, Lin F (2014) Ballistic transport modeling in advanced transistors. In: IEEE 10th international conference on electron devices and solid-state circuits (EDSSC), Chengdu Khan MI, Lin F (2014) Comparative analysis and design of harmonic aware low power latches and flip-flops. Kang I, Heung YY, Kim JH, Lee JW, Gollapudi R, Subramaniam S, Narasimhadevara S, Hurd D, Kirikera GR, Shanov V, Schulz MJ, Shi D, Boerio J, Mall S, Ruggles-Wren M (2006) Introduction to carbon nanotube and nanofiber smart materials. Honda S, Katayama M, Lee K-Y, Ikuno T, Ohkura S, Oura K, Furuta H, Hirao T (2003) Low temperature synthesis of aligned carbon nanotubes by inductively coupled plasma chemical vapor deposition using pure methane. Harris P (2007) Solid state growth mechanisms for carbon nanotubes. Grzybowski BA, Huck WTS (2016) The nanotechnology of life-inspired systems. AAPPS Bull 18:3įord N (2007) Plasma enhanced growth of carbon nanotubes In: COMPEL-the international journal for computation and mathematics in electrical and electronic engineering, vol 35, issue 3Įndo M, Hayashi T, Ahm Kim Y, Muramatsu H (2008) Development and application of carbon nanotubes. Eindhoven University of Technology, pp 1–35ĭurrani YA, Riesgo T, Khan MI, Mahmood T (2016) Power analysis approach and its application to IP-based SoC design. Thin Solid Films 515:6726–6729ĭaenen M, De Fouw RD, Hamers B, Janssen P, Schouteden K, Veld MAJ (2003) The wondrous world of carbon nanotubes. Nat Nanotechnol 11:398–400īingshe Xu, Li T, Liu X, Lin X, Li J (2007) Growth of well-aligned carbon nanotubes in a plasma system using ferrocene solution in ethanol. Pure Appl Chem 78:1117–1126īeumer K (2016) Broadening nanotechnology’s impact on development. Int J Solids Struct 44:7577–7596īell MS, Teo KBK, Lacerda RG, Milne WI, Hash DB, Meyyappan M (2006) Carbon nanotubes by plasma-enhanced chemical vapor deposition. Small 1:180–192īatra R, Sears A (2007) Continuum models of multi-walled carbon nanotubes. Mater Sci Eng C 26:675–678īalasubramanian K, Burghard M (2005) Chemically functionalized carbon nanotubes. Carbon Nanotubes 391–425Īkasaka T, Watari F, Sato Y, Tohji K (2006) Apatite formation on carbon nanotubes. Ajayan P, Zhou O (2001) Applications of carbon nanotubes.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |